Fluids v.3.1, R. Hoetzlein (c) 2012-213, http://fluids3.com
UPDATE: March 7, 2014 Fluids v.3.1 is now available on github and on project website. This version is essentially identical, but is much easier to build. It has the following new features:
- Easier to build. No more dependency on freetype or glut.
- Interactive on-screen GUIs
- Upgraded to run on CUDA 5.0 and 5.5
- Profile timings. Now includes GPU markers for profiling on the GPU using NVIDIAβs free NSight tool.
- Bug fixes noticed by users
Requirements:
Fluids v.3.1 requires a CUDA-capable NVIDIA graphics card /w Compute capability 2.1 or higher. Builds tested on Windows 7 with Visual Studio 2010
Start Fluids by running fluids_v3.exe See below for License terms. See website for software details.
Fluids 3.1 makes use of the following libraries: CUDA - http://www.nvidia.com/object/cuda_home_new.html OpenGL - http://www.opengl.org/ TinyXML - http://www.grinninglizard.com/tinyxml/index.html
Keyboard commands:
H Turn scene info on/off N, M Change number of particles [, ] Change example scene (loaded from scene.xml) F, G Change algorithm (CPU, GPU, etc.) J Change rendering mode (points, sprites, spheres) C Adjust camera (using mouse) L Adjust light (using mouse) A,S,W,D Move camera target 1 Draw acceleration grid 2 Draw particle IDs (be sure # < 4096 first) ~ Start video capture to disk (tilde key) -, + Change grid density
Scene parameters:
- Example scenes are loaded from the scene.xml file All parameters are permitted in either Fluid or Scene sections. DT Simulation time step SimScale Simulation scale (see website) Viscosity Fluid viscosity coefficient RestDensity Fluid rest density Mass Fluid particle mass Radius Fluid particle radius, only for boundary tests IntStiff Fluid internal stiffness (non-boundary) BoundStiff Fluid stiffness at boundary BoundDamp Fluid damping at boundary AccelLimit Acceleration limit (for stability) VelLimit Velocity limit (for stability) PointGravAmt Strength of point gravity PointGravPos Position of point gravity PlaneGravDir Direction of plane gravity GroundSlope Slope of the ground (Y- plane) WaveForceFre Frequency of wave forcing WaveForceMin Amplitude of wave forcing from X- plane WaveForceMax Amplitude of wave forcing from X+ plane Name Name of scene example Num Number of particles to simulate VolMin Start corner of Domain Volume VolMax End corner of Domain Volume InitMin Start corner of Initial Particle placement InitMax End corner of Initial Particle placement
Attribute-ZLib license (* See additional part 4)
FLUIDS v.3 - SPH Fluid Simulator for CPU and GPU Copyright (C) 2012-2013. Rama Hoetzlein, http://fluids3.com
This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software.
Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions:
- The origin of this software must not be misrepresented; you must not claim that you wrote the original software.
- Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
- This notice may not be removed or altered from any source distribution.
- Any published work based on this code must include public acknowledgement
of the origin. This includes following when applicable:
- Journal/Paper publications. Credited by reference to work in text & citation.
- Public presentations. Credited in at least one slide.
- Distributed Games/Apps. Credited as single line in game or app credit page.
Retaining this additional license term is required in derivative works.
Acknowledgement may be provided as:
Publication version:
2012-2013, Hoetzlein, Rama C. Fluids v.3 - A Large-Scale, Open Source Fluid Simulator. Published online at: http://fluids3.com Single line (slides or app credits): GPU Fluids: Rama C. Hoetzlein (Fluids v3 2013)
Notes on Clause 4: The intent of this clause is public attribution for this contribution, not code use restriction. Both commerical and open source projects may redistribute and reuse without code release. However, clause #1 of ZLib indicates that "you must not claim that you wrote the original software". Clause #4 makes this more specific by requiring public acknowledgement to be extended to derivative licenses.